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High performance p-type molecular electron donors for OPV applications via alkylthiophene catenation chromophore extension.


ABSTRACT: The synthesis of key 4-alkyl-substituted 5-(trimethylsilyl)thiophene-2-boronic acid pinacol esters 3 allowed a simplified alkylthiophene catenation process to access bis-, ter-, quater-, and quinquethiophene ?-bridges for the synthesis of acceptor-?-bridge-donor- ?-bridge-acceptor (A-?-D-?-A) electron donor molecules. Based on the known benzodithiophene-terthiophene-rhodanine (BTR) material, the BXR series of materials, BMR (X = M, monothiophene), BBR (X = B, bithiophene), known BTR (X = T, terthiophene), BQR (X = Q, quaterthiophene), and BPR (X = P(penta), quinquethiophene) were synthesised to examine the influence of chromophore extension on the device performance and stability for OPV applications. The BTxR (x = 4, butyl, and x = 8, octyl) series of materials were synthesised by varying the oligothiophene ?-bridge alkyl substituent to examine structure-property relationships in OPV device performance. The devices assembled using electron donors with an extended chromophore (BQR and BPR) are shown to be more thermally stable than the BTR containing devices, with un-optimized efficiencies up to 9.0% PCE. BQR has been incorporated as a secondary donor in ternary blend devices with PTB7-Th resulting in high-performance OPV devices with up to 10.7% PCE.

SUBMITTER: Geraghty PB 

PROVIDER: S-EPMC5238583 | biostudies-literature | 2016

REPOSITORIES: biostudies-literature

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High performance p-type molecular electron donors for OPV applications via alkylthiophene catenation chromophore extension.

Geraghty Paul B PB   Lee Calvin C   Subbiah Jegadesan J   Wong Wallace W H WW   Banal James L JL   Jameel Mohammed A MA   Jameel Mohammed A MA   Smith Trevor A TA   Jones David J DJ  

Beilstein journal of organic chemistry 20161102


The synthesis of key 4-alkyl-substituted 5-(trimethylsilyl)thiophene-2-boronic acid pinacol esters <b>3</b> allowed a simplified alkylthiophene catenation process to access bis-, ter-, quater-, and quinquethiophene π-bridges for the synthesis of acceptor-π-bridge-donor- π-bridge-acceptor (A-π-D-π-A) electron donor molecules. Based on the known benzodithiophene-terthiophene-rhodanine (<b>BTR</b>) material, the <b>BXR</b> series of materials, <b>BMR</b> (X = M, monothiophene), <b>BBR</b> (X = B, b  ...[more]

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